Facts & Data

Engineering Today

Rice University’s George R. Brown School of Engineering is top-ranked for its education and research programs. The School of Engineering is a leader in computational science and engineering and simulation and modeling. With pioneering research in nanotechnology, Rice’s School of Engineering has made significant contributions in bioengineering, materials science and energy. Its strengths in information technology include high performance computing, compilers and digital signal processing.

The School of Engineering at Rice has a tradition of giving students a sound foundation in the fundamentals of engineering but today, those fundamentals must be augmented by experiential learning and "soft skills." The "three ships"—Leadership, Internships and Entrepreneurship—help our students develop teamwork and communication skills, give them real engineering experience, and for those who are entrepreneurially inclined, provide resources to turn ideas into startups.

Collaboration is the key to engineering research at Rice. Faculty members, graduate students, undergraduates and research scientists work with researchers from across campus, across the street in the Texas Medical Center, across town in the energy sector, and beyond, to tackle some of the most challenging problems of our times.

Facts & Data

Engineering Today

Rice University’s George R. Brown School of Engineering is top-ranked for its education and research programs. The School of Engineering is a leader in computational science and engineering and simulation and modeling. With pioneering research in nanotechnology, Rice’s School of Engineering has made significant contributions in bioengineering, materials science and energy. Its strengths in information technology include high performance computing, compilers and digital signal processing.

The School of Engineering at Rice has a tradition of giving students a sound foundation in the fundamentals of engineering but today, those fundamentals must be augmented by experiential learning and "soft skills." The "three ships"—Leadership, Internships and Entrepreneurship—help our students develop teamwork and communication skills, give them real engineering experience, and for those who are entrepreneurially inclined, provide resources to turn ideas into startups.

Collaboration is the key to engineering research at Rice. Faculty members, graduate students, undergraduates and research scientists work with researchers from across campus, across the street in the Texas Medical Center, across town in the energy sector, and beyond, to tackle some of the most challenging problems of our times.

It sounds like a cliché, but things do get worse before they get better when oil and gas lines are being cleared of contaminants, according to Rice University researchers. Until now, nobody knew exactly why.

The private sector can play a major role in fixing the serious problems that all levels of government and the development community, as well as their engineers and lawyers, have created in regard to flooding in Houston, according to a paper by an environmental expert at Rice University’s Baker Institute for Public Policy.

The Rice Univerrsity lab of chemist and chemical engineer Matteo Pasquali, which demonstrated its pioneering method to spin carbon nanotube into fibers in 2013, has advanced the art of making nanotube-based materials with two new papers in the American Chemical Society's ACS Applied Materials and Interfaces.

“You hear that forecasts have improved, and they have. But Hurricane Harvey shows we still have a long way to go. When it comes to extreme weather, we need better modeling to understand all the data, such factors as development and climate change.”

An engineered string of micronwide beads may take up the slack where computer modeling fails researchers who study the bending, folding and other movements of polymers or biomolecules like actin and DNA.

Like a tuning fork struck with a mallet, tiny gold nanodisks can be made to vibrate at resonant frequencies when struck by light. In new research, Rice University researchers showed they can selectively alter those vibrational frequencies by gathering different-sized nanodisks into groups.

Substituting atoms in the process of making two-dimensional alloys not only allows them to be customized for applications but also can make them magnetic, according to Rice University scientists and their collaborators.Researchers at Rice, Oak Ridge National Laboratory, the University of Southern California and Kumamoto University in Japan used chemical vapor deposition to make atom-thick sheets.

An international team of scientists led by EPFL Lausanne, ETH Zurich and Rice University has created a database of molecular dynamics models that simulate the properties of cement in all its varieties. The database is called cemff, for cement force fields